Hypoxic regulation of the cerebral microcirculation is mediated by a carbon monoxide-sensitive hydrogen sulfide pathway

Takayuki Morikawa; Mayumi Kajimura; Tomomi Nakamura; Takako Hishiki; Tsuyoshi Nakanishi; Yoshinori Yukutake; Yoshiko Nagahata; Mami Ishikawa; Katsuji Hattori; Toshiki Takenouchi; Takao Takahashi; Isao Ishii; Kazuko Matsubara; Yasuaki Kabe; Shinichiro Uchiyama; Eiichiro Nagata; Moataz M. Gadalla; Solomon H. Snyder; Makoto Suematsu

doi:10.1073/pnas.1119658109

Hypoxic regulation of the cerebral microcirculation is mediated by a carbon monoxide-sensitive hydrogen sulfide pathway

Takayuki Morikawa(Keio University), Mayumi Kajimura(Keio University), Tomomi Nakamura(Keio University), Takako Hishiki(Keio University), Tsuyoshi Nakanishi(Keio University), Yoshinori Yukutake(Keio University), Yoshiko Nagahata(Japan Science and Technology Agency), Mami Ishikawa(Keio University), Katsuji Hattori(Keio University), Toshiki Takenouchi(Keio University), Takao Takahashi(Keio University), Isao Ishii(Keio University), Kazuko Matsubara(Keio University), Yasuaki Kabe(Keio University), Shinichiro Uchiyama(Tokyo Women's Medical University), Eiichiro Nagata(Tokai University), Moataz M. Gadalla(Johns Hopkins University), Solomon H. Snyder(Johns Hopkins University), Makoto Suematsu(Keio University)

Proceedings of the National Academy of Sciences

January 9, 2012

10.1073/pnas.1119658109

Cited by 251Open Access

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Abstract

Enhancement of cerebral blood flow by hypoxia is critical for brain function, but signaling systems underlying its regulation have been unclear. We report a pathway mediating hypoxia-induced cerebral vasodilation in studies monitoring vascular disposition in cerebellar slices and in intact mouse brains using two-photon intravital laser scanning microscopy. In this cascade, hypoxia elicits cerebral vasodilation via the coordinate actions of H(2)S formed by cystathionine β-synthase (CBS) and CO generated by heme oxygenase (HO)-2. Hypoxia diminishes CO generation by HO-2, an oxygen sensor. The constitutive CO physiologically inhibits CBS, and hypoxia leads to increased levels of H(2)S that mediate the vasodilation of precapillary arterioles. Mice with targeted deletion of HO-2 or CBS display impaired vascular responses to hypoxia. Thus, in intact adult brain cerebral cortex of HO-2-null mice, imaging mass spectrometry reveals an impaired ability to maintain ATP levels on hypoxia.

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